05000498/LER-2016-002

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LER-2016-002, Unit 1 Automatic Reactor Trip and Auxiliary Feedwater System Actuation Following Turbine Trip due to Generator Lockout
South Texas Unit 1
Event date: 05-01-2016
Report date: 06-29-2016
Reporting criterion: 10 CFR 50.73(a)(2)(iv)(A), System Actuation
4982016002R00 - NRC Website
LER 16-002-00 for South Texas Project, Unit 1, Regarding Automatic Reactor Trip and Auxiliary Feedwater System Actuation Following Turbine Trip Due to Generator Lockout
ML16200A220
Person / Time
Site: South Texas STP Nuclear Operating Company icon.png
Issue date: 06/29/2016
From: Connolly J
South Texas
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
NOC-AE-16003386, STI: 34332298 LER 16-002-00
Download: ML16200A220 (7)


Reported lessons learned are incorporated into the licensing process and fed back to industry.

Send comments regarding burden estimate to the FOIA, Privacy and Information Collections Branch (T-5 F53), U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001, or by Internet e-mail to Infocollects.Resource@nrc.gov, and to the Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202, (3150-0104), Office of Management and Budget, Washington, DC 20503. If a means used to impose an information collection does not display a currently valid OMB control number, the NRC may not conduct or sponsor, and a person is not required to respond to, the information collection.

I. Description of reportable event

A. Reportable event classification

This event is reportable under 10 CFR 50.73(a)(2)(iv)(A) as an event or condition that resulted in an automatic actuation of the Reactor Protection System and also as an event or condition that resulted in an automatic actuation of the Auxiliary Feedwater (AFW) system.

B. Plant operating conditions prior to event

Prior to the event on May 1, 2016, Unit 1 was operating in Mode 1 at 100 percent power.

C. Status of structures, systems, and components (SSCs) that were inoperable at the start of the event and that contributed to the event There were no SSCs that were inoperable at the start of the event that contributed to the event.

D. Narrative summary of the event

On May 1, 2016 at 2020 hours0.0234 days <br />0.561 hours <br />0.00334 weeks <br />7.6861e-4 months <br />, STP Unit 1 experienced a Main Generator lockout caused by a ground relay actuation, resulting in an automatic turbine trip which led to an automatic reactor trip.

Approximately 14 seconds later, an initiating signal for feedwater isolation was received due to low average Reactor Coolant System (RCS) temperature coincident with a reactor trip.

At 2024 hours0.0234 days <br />0.562 hours <br />0.00335 weeks <br />7.70132e-4 months <br />, the AFW system actuated due to low Steam Generator (SG) level.

Following the automatic reactor trip, Unit 1 stabilized in Mode 3 (Hot Standby) at normal operating pressure and temperature. All Control Rods fully inserted, no primary or secondary relief valves opened, and there were no electrical problems. Unit 2 was not affected.

E. Method of discovery

The automatic reactor trip and AFW actuation were self-revealing. The automatic turbine trip occurred upon receipt of the Main Generator lockout signal. With the reactor at greater than fifty percent power, the automatic reactor trip was initiated in response to the turbine trip. The AFW system actuated automatically on a SG low level signal approximately 4 minutes and 10 seconds following the reactor trip.

Reported lessons learned are incorporated into the licensing process and fed back to industry.

Send comments regarding burden estimate to the FOIA, Privacy and Information Collections Branch (T-5 F53), U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001, or by intemet e-mail to Infocollects.Resource@nrc.gov, and to the Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202, (3150-0104), Office of Management and Budget, Washington, DC 20503. If a means used to impose an information collection does not display a currently valid OMB control number, the NRC may not conduct or sponsor, and a person is not required to respond to, the information collection.

3. LER NUMBER

2016 00 002

II. Component failures

A. Failure mode, mechanism, and effects of failed component

The failed component was a neoprene rubber boot installed between the Main Generator B phase and the isolated phase bus duct.

The failure of the rubber boot occurred due to heat aging that caused the material to degrade and become hardened and brittle to such an extent that it carbonized and became partially conductive at voltages above 2 kV. Due to the design of the boot and its metal retaining ring, heat was concentrated on the rubber in a band approximately one inch above the bottom edge of the rubber boot, causing a piece of the boot below the generator to become loose.

The loose rubber piece made intermittent contact with the Main Generator bushing causing a resistance pathway to ground. This condition resulted in a Main Generator lockout actuation and subsequent automatic turbine trip leading to an automatic reactor trip.

B. Cause of component failure

The cause of the component failure was determined to be an inadequate design for the rubber boot and retaining ring between the Main Generator and isolated phase bus duct. The cause evaluation also concluded that permanent removal of the rubber boot and associated clamps and retaining ring will not impact the system functionality. The A, B and C phase refueling outage.

C. Systems or secondary functions that were affected by failure of components with multiple functions The rubber boot between the Main Generator phase B and the isolated phase bus duct does not have multiple functions that affect other systems.

D. Failed component information (Energy Industry Identification System (EIIS) designators provided in {brackets Main Generator System {TB} Neoprene rubber boot Manufacturer: General Electric Canada {G080} Reported lessons learned are incorporated into the licensing process and fed back to industry.

Send comments regarding burden estimate to the FOIA, Privacy and Information Collections Branch (T-5 F53), U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001, or by internet e-mail to Infocollects.Resource@nrc.gov, and to the Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202, (3150-0104), Office of Management and Budget, Washington, DC 20503. If a means used to impose an information collection does not display a currently valid OMB control number, the NRC may not conduct or sponsor, and a person is not required to respond to, the information collection.

3. LER NUMBER

2016 00 002

III. Analysis of the event

A. Safety system responses that occurred

The Reactor Protection System and AFW systems both responded to this event.

B. Duration of safety system inoperability

There were no SSCs that were inoperable at the start of the event that contributed to the event.

C. Safety consequences and implications

No Technical Specification Limiting Conditions for Operation (LC0s) were entered due to this event. The turbine automatically tripped following receipt of the generator lockout signal.

Subsequently, the automatic turbine trip led to an automatic reactor trip.

For the Probabilistic Risk Assessment (PRA) analysis, the initiating event is classified as a Turbine Trip (TTRIP). No risk significant equipment was out of service at the time of the event and all fission product barriers remained intact.

The STP PRA was used to estimate the relevant metrics for this event, Conditional Core Damage Probability (CCDP) and Conditional Large Early Release Probability (CLERP), given the TTRIP actually occurred. The CCDP and CLERP were determined to be 6.14E-07 and 3.62E-08 respectively, indicating very low risk significance.

The event was of very low risk significance and no radioactive release occurred; therefore, there was no adverse effect on the health and safety of the public.

IV. Cause of the event

The event was caused by a loose piece of the degraded rubber boot that intermittently contacted the Main Generator bushing causing a resistance path to ground and forming an electrical path between the bus and ground. This caused the Main Generator lockout relay to actuate which resulted in an automatic trip of the Unit 1 turbine which led to an automatic reactor trip. The AFW system actuated automatically on low SG level following a Feedwater isolation due to low average reactor temperature.

V. Corrective actions

The neoprene rubber boots between the Main Generator phase A, B and C and the isolated phase bus duct were replaced and associated Post Maintenance Tests were performed.

Additionally, design changes will be developed and implemented to remove the rubber boots and associated clamps and retaining rings for both Unit 1 and Unit 2.

Reported lessons learned are incorporated into the licensing process and fed back to industry.

Send comments regarding burden estimate to the FOIA, Privacy and Information Collections Branch (T-5 F53), U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001, or by internet e-mail to Infocollects.Resource@nrc.gov, and to the Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202, (3150-0104), Office of Management and Budget, Washington, DC 20503. If a means used to impose an information collection does not display a currently valid OMB control number, the NRC may not conduct or sponsor, and a person is not required to respond to, the information collection.

VI. Previous similar events

An operating experience (OE) review was conducted as part of the cause evaluation performed for this event. No OE was found related to rubber boot material degrading in the area between the Main Generator and the isolated phase bus duct.

There have been no STP Licensee Event Reports related to a reactor trip due to a Main Generator lockout submitted within the last three years. In 2011, Unit 2 experienced a reactor trip due to a Main Generator lockout (LER 2-2011-002), however, this event was initiated by Stator Cooling Water leakage from one the water cooled stator coils in the generator.

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